International Journal of Bioprinting                                         Advancements in 3D printing



























































            Figure 13. (A) Schematic diagrams of metal-organic framework tricalcium phosphate (MOF-TCP) scaffolds.  Copyright © John Wiley and Sons 2023.
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            Reprinted with permission of John Wiley and Sons. (B) Schematic representation of the process for producing template inverted particle (TIP), an inorganic
            calcium phosphate microparticle.  Copyright © John Wiley and Sons 2023. Reprinted with permission of John Wiley and Sons. (C) BG-TCP bioceramic
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            scaffolds promote bone regeneration through the regulation of angiogenesis and osteogenesis.  Copyright © Elsevier 2023. Reprinted with permission
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            of Elsevier. (D) Focused ion beam scanning electron microscopy (FIB-SEM) images of Ti-TESPMA-Gel-CaP and Ti-TPSA-Gel-CaP.  Copyright © John
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            Wiley and Sons 2023. Reprinted with permission of John Wiley and Sons. (E) Schematic diagram of EPI-loaded PAA/CaP (CaP-EPI) nanoparticles for
            transarterial chemoembolization (TACE) therapy.  Copyright © American Chemical Society 2023. Reprinted with permission of American Chemical
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            Society. (F) Images of water-triggered, complete filling of a defect in chicken bone by using a pre-compressed biphasic calcium phosphate (BCP) ceramic
            sponge.  Copyright © John Wiley and Sons 2021. Reprinted with permission of John Wiley and Sons.
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            implants.  Their importance is growing across various   after  implantation. These  ceramics  stimulate bone  tissue
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            applications, including fracture fixation repair, spinal   regeneration, expediting the recovery of bone tissue
            fusion, alveolar bone elevation, mandibular reconstruction,   function. This category encompasses materials like porous
            and tooth root replacement. In cases of bone replacement   hydroxyapatite ceramics,  tricalcium phosphate  ceramics,
            and filling, porous biodegradable biomedical ceramics   and more. Notably, these porous ceramic materials often
            are  employed,  which are  readily  absorbed  by  the  body   serve as carriers for cells and factors used in bone tissue


            Volume 10 Issue 2 (2024)                        60                                doi: 10.36922/ijb.1752